Grzesik et al., 2012 - Google Patents
Modification of surface finish produced by hard turning using superfinishing and burnishing operationsGrzesik et al., 2012
View PDF- Document ID
- 4279823883470596022
- Author
- Grzesik W
- Żak K
- Publication year
- Publication venue
- Journal of Materials Processing Technology
External Links
Snippet
In this study the surface finish produced by hard turning of a 41Cr4 low-alloy steel quenched to about 60 HRC hardness, using mixed Al2O3–TiC ceramic inserts, was subsequently modified by superfinishing and multipass burnishing operations. In the case of hard turning …
- 238000007514 turning 0 title abstract description 37
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24B—MACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
- B24B1/00—Processes of grinding or polishing; Use of auxiliary equipment in connection with such processes
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Grzesik et al. | Modification of surface finish produced by hard turning using superfinishing and burnishing operations | |
| Grzesik et al. | Surface finish on hardened bearing steel parts produced by superhard and abrasive tools | |
| Zhao et al. | Effect of cutting edge radius on surface roughness and tool wear in hard turning of AISI 52100 steel | |
| Bartarya et al. | State of the art in hard turning | |
| Grzesik et al. | Comparative assessment of surface roughness produced by hard machining with mixed ceramic tools including 2D and 3D analysis | |
| Grzesik | Influence of tool wear on surface roughness in hard turning using differently shaped ceramic tools | |
| Grzesik et al. | Surface finish generated in hard turning of quenched alloy steel parts using conventional and wiper ceramic inserts | |
| Pavel et al. | Effect of tool wear on surface finish for a case of continuous and interrupted hard turning | |
| Grzesik et al. | Producing high quality hardened parts using sequential hard turning and ball burnishing operations | |
| de Martini Fernandes et al. | Comparative analysis of two CBN grinding wheels performance in nodular cast iron plunge grinding | |
| de Souza Ruzzi et al. | Topographical analysis of machined surfaces after grinding with different cooling-lubrication techniques | |
| Martell et al. | Experimental investigation on variation of machined residual stresses by turning and grinding of hardened AISI 1053 steel | |
| Grzesik et al. | Comparison of surface textures produced by finish cutting, abrasive and burnishing operations in terms of their functional properties | |
| Grzesik et al. | Investigations of surface textures produced by oblique machining of different workpiece materials | |
| Pu et al. | High speed ball nose end milling of hardened AISI A2 tool steel with PCBN and coated carbide tools | |
| Da Silva et al. | A surface and sub-surface quality evaluation of three cast iron grades after grinding under various cutting conditions | |
| Mallick et al. | Hard turning performance evaluation using CVD and PVD coated carbide tools: A comparative study | |
| Grzesik et al. | Effects of cryogenic cooling on surface layer characteristics produced by hard turning | |
| Okada et al. | Surface quality of cemented tungsten carbide finished by direct cutting using diamond-coated carbide end mill | |
| Khellouki et al. | The effect of lubrication conditions on belt finishing | |
| Grzesik et al. | Surface integrity generated by oblique machining of steel and iron parts | |
| Deja | The use of Preston equation to determine material removal during lap-grinding with electroplated CBN tools | |
| Kacalak et al. | Evaluation of micromachining processes using data in the format and geometric characteristics of micro-chips | |
| Grzesik et al. | Surface integrity of hard turned parts modified by ball burnishing | |
| Grzesik et al. | Surface integrity of hardened steel parts in hybrid machining operations |